2012
DOI: 10.1134/s1063784212120237
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Analysis of physicochemical properties of nanoparticles obtained by pulsed electric discharges in water

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Cited by 9 publications
(4 citation statements)
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“…The main directions of synthesis of such nanostructures are the use of laser plasma in vacuum or liquid conditions [4,5]. A promising method for synthesizing nanostructures of metals and their oxides is a pulsed discharge in distilled water or ethyl alcohol between metal electrodes [6,7]. But these methods of synthesis have a number of drawbacks-the high cost of laser and vacuum equipment and the low yield of useful materials.…”
Section: Introductionmentioning
confidence: 99%
“…The main directions of synthesis of such nanostructures are the use of laser plasma in vacuum or liquid conditions [4,5]. A promising method for synthesizing nanostructures of metals and their oxides is a pulsed discharge in distilled water or ethyl alcohol between metal electrodes [6,7]. But these methods of synthesis have a number of drawbacks-the high cost of laser and vacuum equipment and the low yield of useful materials.…”
Section: Introductionmentioning
confidence: 99%
“…In a number of cases, additional energy effects are used in the synthesis, including sonochemical and microwave synthesis in addition to those mentioned above [343][344][345][346][347]. It is revealed that the size and degree of disorientation of their constituent crystallites have a great influence on the structure and contribution of non-autonomous phases and properties of polycrystalline materials.…”
Section: Characteristics and Features Of Methods For The Synthesis Of New Nanostructured Catalystsmentioning
confidence: 99%
“…Серед нових ефективних способів синтезу наноструктур важливе місце належить методу, заснованому на електричному розряді в рідинах. До переваг цього методу слід віднести можливість регулювання параметрів синтезованих часток шляхом варіації режимів розряду, досить висока продуктивність з можливістю масштабування процесу синтезу, порівняно проста конструкція реактора та нескладний процес підготовки вихідних матеріалів [1]. Недоліком таких реакторів є швидке розпорошення електродів і не керована зміна віддалі між електродами.…”
Section: вступunclassified